List of Publications of Prof. Amlan J. Pal during 2000 to date:
144)
Transport gap of nanoparticle-passivated silicon substrates
B. Ghosh, B. C. Das, and A. J. Pal
Small 6, 52 (2010).
143)
Near-IR activity of hybrid solar cells: Enhancement of efficiency by dissociating
excitons generated in PbS nanoparticles
A. Guchhait, A. K. Rath, and A. J. Pal
Appl. Phys. Lett. In press (2010).
142)
Hybrid Core-Shell Nanoparticles: Photoinduced Electron-Transfer for Charge
Separation and Solar Cell Applications
A. Guchhait, A. K. Rath, and A. J. Pal
Chem. Mater. 21, 5292 (2009).
141)
Diode Junctions in Single ZnO Nanowires as Half-Wave Rectifiers
K. Mohanta and A. J. Pal
J. Phys. Chem. C 113, 18047 (2009).
140)
Conductance-switching in TiO2 nanorods is a redox-driven process: Evidences from
photovoltaic parameters
B. Ghosh and A. J. Pal
J. Phys. Chem. C 113, 18391 (2009).
139)
To change transport gap of semiconducting nanoparticles without disturbing the
optical one: Core-shell approach
B. C. Das and A. J. Pal
Appl. Phys. Lett. 94, 082106 (2009).
138)
Diode junctions between two ZnO nanoparticles: mechanism of rectification
K. Mohanta, S. K. Batabyal, and A. J. Pal
J. Appl. Phys. 105, 024507 (2009).
137)
To induce negative differential resistance in organic devices through a ferroelectric
polymer
A. K. Rath and A. J. Pal
Organic Electronics 10, 1116 (2009).
136)
Half-wave organic-rectifiers with donor/acceptor assemblies in the molecular scale
K. Mohanta and A. J. Pal
Organic Electronics 10, 960 (2009).
135)
Diode junctions between two ZnO nanoparticles: current rectification and the role of
particle size (and bandgap)
K. Mohanta and A. J. Pal
Nanotechnology 20, 185203 (2009).
134)
Organic photodetectors based on a phthalocyanine and fullerenes: dielectric
properties
S. Sahu and A. J. Pal
J. Nanosci. Nanotechnol. 9, 450 (2009).
133)
Organic memory and electrical bistability in a quinone-based charge-transfer complex
A. K. Rath and A. J. Pal
Proc. of IEEE 97, 1580 (2009).
132)
Enhancement of electrical bistability through semiconducting nanoparticles for
organic memory applications
B. C. Das and A. J. Pal
Phil. Trans. R. Soc. A 367, 4181 (2009).
2008
131)
Core-Shell Hybrid Nanoparticles with Functionalized Quantum Dots and Ionic Dyes:
Growth, Monolayer Formation, and Electrical Bistability
B. C. Das and A. J. Pal
ACS Nano 2, 1930 (2008).
130)
Organization of organic molecules with inorganic nanoparticles: hybrid nanodiodes
K. Mohanta, S. K. Batabyal, and A. J. Pal
Advanced Functional Materials 18, 687 (2008).
129)
Memory applications and electrical bistability of semiconducting nanoparticles: do
the phenomena depend on bandgap?
B. C. Das and A. J. Pal
Small 4, 542 (2008).
128)
Nanowires of Metal-Organic complex by Photocrystallization: A System to Achieve
Addressable Electrically-Bistable Devices and Memory Elements
A. K. Rath, K. Dhara, P. Banerjee, and A. J. Pal
Langmuir 24, 5937 (2008).
127)
Multi-functionality of Organic Devices: Light-emission, Photovoltage Generation,
and Photodetection
S. Sahu and A. J. Pal
J. Phys. Chem. C 112, 8446 (2008).
126)
Core-Shell Nanoparticles: An Approach to Enhance Electrical Bistability
B. Ghosh, S. Sahu, and A. J. Pal
J. Phys. Chem. C 112, 11290 (2008).
125)
Rectifying Junctions from an Assembly of Two Dissimilar Nanoparticles
K. Mohanta and A. J. Pal
J. Phys. Chem. C. 112, 3232 (2008).
124)
Non-interacting Write and Read Processes in Organic Memory Devices
S. Sahu and A. J. Pal
Organic Electronics 9, 873 (2008).
123)
Resistive Switching in Rose Bengal and other Xanthene Molecules is a Molecular
Phenomenon
A. K. Rath and A. J. Pal
Organic Electronics 9, 495 (2008).
122)
Switching between different conformers of a molecule: Multilevel memory elements
B. C. Das and A. J. Pal
Organic Electronics 9, 39 (2008).
121)
Core-Shell Nanotubes to enhance Electrical Bistability for 2-bit Memory
B. Ghosh, S. Sahu, and A. J. Pal
J. Mater. Chem. 18, 4670 (2008)
2007
120)
A bit per particle: Electrostatic assembly of CdSe quantum dots as memory elements
B. C. Das, S. K. Batabyal, and A. J. Pal
Advanced Materials 19, 4172 (2007).
119)
Electronically interacting composite systems for electrical bistability and memory
applications
B. Mukherjee, S. K. Batabyal, and A. J. Pal
Advanced Materials 19, 717 (2007).
118)
pn-Junction Rectifiers based on p-ZnO and n-ZnO Nanoparticles
K. Mohanta, S. K. Batabyal, and A. J. Pal
Chemistry of Materials 19, 3662 (2007).
117)
Write-Once-Read-Many times (WORM) Memory Applications in a Monolayer of
Donor/Acceptor Supramolecule
B. Mukherjee and A. J. Pal
Chemistry of Materials 19, 1382 (2007).
116)
Layer-by-layer assembly of capped CdSe-nanoparticles: electrical bistability and
memory phenomenon
S. Sahu, S. K. Majee and A. J. Pal
Applied Physics Letters 91, 143108 (2007).
115)
Organic photodetectors with electrically bistable electron-acceptors and nanotubes
S. Sahu, S. K. Batabyal and A. J. Pal
Applied Physics Letters 90, 142112 (2007)
114)
Conductance Switching in an Organic Material: From Bulk to Monolayer
A. K. Rath and A. J. Pal
Langmuir 23, 9831 (2007).
113)
(Organic) Switching phenomenon in lateral structures: tuning by gate voltage
B. Mukherjee and A. J. Pal
Organic Electronics 8, 584 (2007).
112)
Electrical Bistability in Zinc Oxide Nanoparticle-Polymer Composites
B. Pradhan, S. K. Majee, S. K. Batabyal, and A. J. Pal
J. Nanosci. Nanotechnol. 7, 4534 (2007).
111)
Vertically aligned ZnO-nanowire arrays in Rose Bengal-based dye-sensitized solar
cells
B. Pradhan, S. K. Batabyal, and A. J. Pal
Solar Energy Materials and Solar Cells, 91,769 (2007).
110)
Organic photodetectors based on graded heterostructure of donor and acceptor layers
S. Sahu and A. J. Pal
Materials Science and Engineering C 27, 746 (2007).
109)
Organic photodetectors: Role of multiple donor-acceptor interfaces,
S. Sahu and A. J. Pal
Current Applied Physics 7, 176 (2007)
2006
108)
Tuning of Molecular Rectification in Donor/Acceptor Assemblies via Supramolecular
Structures
B. Mukherjee, K. Mohanta, and A. J. Pal
Chem. Mater. 18, 3302 (2006).
107)
Rectifying junction in a single ZnO vertical nanowire
B. Pradhan, S. K. Batabyal, and A. J. Pal
Applied Physics Letters 89, 233109 (2006).
106)
Electrical bistability in a xanthene class molecule: conduction mechanisms
A. K. Rath, S. Sahu, and A. J. Pal
Applied Physics Letters 89, 142110 (2006).
105)
Functionalized carbon nanotubes in donor/acceptor-type photovoltaic devices
B. Pradhan, S. K. Batabyal, and A. J. Pal
Applied Physics Letters 88, 093106 (2006).
104)
Electrical bistability in electrostatic assemblies of CdSe nanoparticles
K. Mohanta, S. K. Majee, S. K. Batabyal, and A. J. Pal
J. Phys. Chem. B. 110, 18231 (2006).
103)
Electrical bistability and memory phenomenon in carbon nanotube-conjugated
polymer matrices
B. Pradhan, S. K. Batabyal, and A. J. Pal
J. Phys. Chem. B 110, 8274 (2006).
102)
Tuning of electrical bistability in organic devices through electrochemical potential of
metal contacts
B. Mukherjee and A. J. Pal
Organic Electronics 7, 249 (2006).
101)
A Control Over Accessibility of Immobilized Enzymes Through Porous Coating
Layer
K. Mohanta, A. J. Pal, S. Roy and P. K. Das
J. Coll. Int. Sci. 304, 329 (2006).
100)
Donor/Acceptor type Photodetectors: Role of Substitution in Acceptor Material
S. Sahu and A. J. Pal
J. Appl. Phys. 99, 114503 (2006).
99)
Electrical bistability and memory applications of poly(p-phenylene)vinylene films
S. K. Majee, H. S. Majumdar, A. Bolognesi, and A. J. Pal
Synthetic Metals 156, 828 (2006).
98)
Mechanism of conductance switching: An optical investigation
A. Bandyopadhyay, A. Chowdhury and A. J. Pal
Optical Materials 28, 1432 (2006).
97)
Tuning of Conductance Switching by Supramolecular Structures
S.K. Majee, A. Bandyopadhyay and A. J Pal
Colloids and Surfaces A: Physicochemical and Engineering Aspects 284-285, 11
(2006)
2005
96) Memory-switching phenomenon in acceptor-rich organic molecules: Impedance
spectroscopic studies
A. Bandyopadhyay and A. J. Pal
J. Phys. Chem. B 109, 6084 (2005).
95) Rectification in molecular assemblies of donor-acceptor monolayers
B. Mukherjee and A. J. Pal
Chem. Phys. Lett. 416, 289 (2005)
94) Role of dielectric properties in organic photovoltaic devices
B. Pradhan and A.J. Pal
Chem. Phys. Lett. 416, 327 (2005)
93) Dielectric properties of (multilevel) switching devices based on ultrathin organic films
B. Mukherjee and A. J. Pal
Chem. Phys. Lett. 401, 410 (2005)
92) On the origin of multilevel conductance and memory in ultrathin organic films
B. Mukherjee and A. J. Pal
Synthetic Metals 155, 336 (2005)
91) Organic photovoltaic devices: Concentration gradient of donor and acceptor materials in
the molecular scale
B. Pradhan and A.J. Pal
Synthetic Metals 155, 555 (2005)
90) Memory applications of a thiophene-based conjugated polymer by photoluminescence
measurements
H. S. Majumdar, C. Botta, A. Bolognesi and A. J. Pal
Synthetic Metals 148, 175 (2005)
2004
89) Multilevel conductance and memory in ultrathin organic films
B. Mukherjee and A. J. Pal
Applied Physics Letters 85, 2116, (2004).
88) Molecular level control of donor-acceptor heterostructures in organic photovoltaic
devices
B. Pradhan, A. Bandyopadhyay and A. J Pal
Applied Physics Letters 85, 663 (2004).
87) Photoluminescence measurements to study conductance switching and data-storage in
polythiophene based devices
C. Botta, C. Mercogliano, A. Bolognesi, H. S. Majumdar and A. J. Pal
Applied Physics Letters 85, 2393 (2004).
86) Multilevel conductivity and conductance switching in supramolecular structures of an
organic molecule
A. Bandyopadhyay and A. J. Pal
Applied Physics Letters 84, 999 (2004).
85) Electrical bistability in molecular films: transition from memory to threshold switching
S.K. Majee, A. Bandyopadhyay and A. J Pal
Chemical Physics Letters 399, 284 (2004)
84) Organic heterojunction photovoltaic cells: role of functional groups in electron acceptor
materials
B. Pradhan and A. J. Pal
Solar Energy Materials & Solar Cells 81, 469 (2004).
83) Conductance switching and data-storage in oriented polymer based devices: Impedance
characteristics
H.S. Majumdar, A. Bolognesi and A.J. Pal
Thin Solid Films 446, 296 (2004).
82) Switching and memory devices based on a polythiophene derivative for data-storage
applications
H.S. Majumdar, A.Bolognesi and A.J. Pal
Synthetic Metals 140, 203 (2004).
2003
81) Tuning of organic reversible switching via self-assembled supramolecular structures
A. Bandyopadhyay and A. J. Pal
Advanced Materials 15, 1949 (2003).
80) Large conductance switching and memory effects in organic molecules for data-storage
applications
A. Bandyopadhyay and A. J. Pal
Applied Physics Letters 82, 1215 (2003).
79) Large conductance switching and binary operation in organic devices: Role of functional
groups
A. Bandhopadhyay and A. J. Pal
Journal of Physical Chemistry B 107, 2531 (2003).
78 Data-storage devices based on layer-by-layer self-assembled films of a phthalocyanine
derivative
H.S. Majumdar, A. Bandyopadhyay, and A.J. Pal
Organic Electronics 4, 39 (2003).
77) A Monte Carlo simulation study of organic light-emitting devices under alternating
applied field
S. Paul, P. Pal, A. J. Pal and G. B. Talapatra
Journal of Applied Physics 94, 4357 (2003).
76) Memory applications of a thiophene-based
measurements
H.S. Majumdar, A. Bolognesi and A.J. Pal
J. Phys. D: Appl. Phys. 36, 221 (2003).
conjugated
polymer:
capacitance
75) Key to design functional organic molecules for binary operation with large conductance
switching
A. Bandyopadhyay and A. J. Pal
Chemical Physics Letters 371, 86 (2003)
2002
74) Layer-by-layer self-assembling of a low-molecular weight organic material by different
electrostatic adsorption processes
S. Das and A.J. Pal
Langmuir 18, 458 (2002).
73) Memory device applications of a conjugated polymer: Role of space charges
H.S. Majumdar, A. Bandyopadhyay, A. Bolognesi and A.J. Pal
J. Appl. Phys. 91, 2433 (2002) [Erratum J. Appl. Phys. 91, 5508 (2002)].
72) Impedance characteristics of layer-by-layer electrostatic self-assembled films of evans
blue
S. Roy, S. Kundu, S.K. Roy, and A. J. Pal
Mat. Chem. Phys. 77, 784 (2002).
71) A study of organic light-emitting devices based on electrostatic self-assembled films of
evans blue under ac voltage
S. Roy and A.J. Pal
Phys. Stat. Sol(a) 193, 367 (2002).
70) Relaxation dynamics in light-emitting devices based on a poly(3-alkylthiophene)
derivative: Transient capacitance and transient electroluminescence studies
H.S. Majumdar, A. Bolognesi and A.J. Pal
Synth. Metals, 129, 275 (2002).
2001
69) Light-emitting devices based on sequentially adsorbed layer-by-layer self-assembled
films of alizarin violet
S. Das, A. J. Pal
Novel Methods to Study Interfacial Layers, Ed. By D. Möbius and R. Miller, “Studies in
Interface Science” Series, vol. 11, Elsevier Science, Amsterdam, The Netherlands (2001)
pp. 195.
68) Sequentially adsorbed layer-by-layer self assembled films: light-emitting devices based
on evans blue
S. Roy and A. J. Pal
Mat. Sci. Engg. C 18, 65 (2001).
67) Alternating-current and direct-current responses of light-emitting devices based on
decacyclene Langmuir-Blodgett films
S. Das, A. Chowdhury, A.J. Pal
Phys. Stat. Sol (a) 185, 383 (2001)
66) Transient characteristics of light-emitting devices based on Langmuir-Blodgett films of a
porphyrin derivative
A. Chowdhury and A. J. Pal
Synth. Met. 122, 243 (2001)
65) A comparison between CW and pulsed mode operations of light-emitting devices based
on alizarin violet
S. Das, P. Pal, and A. J. Pal
J. Mat. Science: Mat. in Electronics 12, 37 (2001)
64) Electric field redistribution in light-emitting devices: Transient electroluminescence and
time-of-flight studies
A. Chowdhury, R. Österbacka, A.J. Pal , H. Stubb
Synth. Met. 121, 1681 (2001)
63) Electric field redistribution in light-emitting devices based on Langmuir-Blodgett films of
a porphyrin derivative
A. Chowdhury, R. Österbacka, A. J. Pal, H. Stubb
Solid State Comm. 117, 223 (2001)
62) Alternating current light-emitting devices based on Langmuir-Blodgett films of a
porphyrin derivative: space charges in device operation
A. Chowdhury and A. J. Pal
Thin Solid Films 385, 266 (2001).
2000
61) Transient electroluminescence under double voltage pulse: charge accumulation in lightemitting devices based on alizarin violet
S. Das and A.J. Pal
Appl. Phys. Lett. 76, 1770 (2000)
60) Fabrication of microporous thin films from polyelectrolyte multilayers
J.D. Mendelsohn, C.J. Barrett, V.V. Chan, A.J. Pal, A.M. Mayes, and M.F. Rubner
Langmuir, 16, 5017 (2000).
59) Transient response of organic light-emitting devices – a Monte Carlo simulation study
S. Das, G.B. Talapatra, A. Chowdhury, and A. J. Pal
J. Appl. Phys. 88, 6457 (2000)
58) Light-emitting devices based on evans blue under alternating-current and direct-current
modes: different charge injection mechanisms
S. Roy, A. Chowdhury, S. Das and A. J. Pal
Synth. Met. 113, 269 (2000)
57) Transient electroluminescence under double rectangular voltage pulses in light-emitting
devices based on Evans Blue
S. Roy and A.J. Pal
Solid State Comm. 114, 589 (2000)
56) Charge injection mechanisms in solid state organic light-emitting devices based on
alizarin violet
S. Das, A. Chowdhury, S. Roy and A. J. Pal
Phys. Stat. Sol (a) 178, 811 (2000)
Last updated: February 4, 2010